Study of ancient eclipses can unveil past climate trends

The imprint of perturbations in Earth’s rotation called delta T can be deciphered from records of ancient eclipses: Scientists

Scientists say ancient eclipse records in epigraphical inscriptions can help us understand climate change in historical time scales.

For a long time now, historians have been using epigraphy to infer the political and economic aspects of the past. In recent times, astronomers have come to realise that it can also be a potent tool to understand the history of astronomy as well as for inferring minute changes in the motion of Earth.

Addressing a workshop on ‘Ancient eclipses’ held at Jawaharlal Nehru Planetarium at Bengaluru on Saturday, Prof Kiyotaka Tanikawa from the National Astronomical Observatory of Japan noted, “Ancient eclipse records in epigraphical inscriptions can help us understand climate change in historical time scales.”

Explaining the underlying science, he said, “It had to do with the fact that the total angular momentum cannot change. Hence, during ice ages, when Earth is compact with more water frozen at the poles, it rotates faster making the length of the day shorter by several seconds. Conversely, during warm periods, more water melts and the sea level rises resulting in sluggish rotation of Earth making the day length to increase. The imprint of perturbations in Earth’s rotation--called delta T--can be deciphered from the records of ancient eclipses.”

Climate scientists can infer the average sea level that might have happened lakhs of years ago from geochemical measurements of radioisotopes derived from ice cores, sediment, rock cores, coral growth rings and tree rings. However, these methods utterly fail to guess the sea level during historical times, say during the Gupta period or the Vijayanagara dynasty. “The study of ancient eclipses and occultations can help us decipher climate change in the last 1000 to 500 years,” Prof. Tanikawa said.

Researchers are also studying ancient eclipse to understand the movement of the moon. Currently, the moon is moving away from Earth at a rate of about 3.8 cm per year. Researchers are studying whether or not the moon’s tidal acceleration has been constant since ancient times.

Prof Mitsuru Soma, also from the National Astronomical Observatory of Japan, said, “Our study of ancient records of solar eclipses between 198 and 181 BC in China and in Rome show that the lunar tidal acceleration is consistent with the current rate." He also noted that records of lunar occultation of Venus and Saturn in AD 503 and 513 in China are useful for our studies of Earth’s rotation.

Prof Balachandra Rao, honorary director of the Gandhi Centre for the Study of Sciences and Human values, referred to the practice of some epigraphists to dismiss inscriptions which do not fit the ephemeris as irregular and incorrect.

“While copper plate inscriptions may have some spurious interpolations, epigraphical records of eclipses are invariably true and reliable. The mismatch is most likely due to our wrong interpretation. In India, we follow hundreds of calendars. We need to check the data carefully with various calendrical traditions before we dismiss the epigraphical claim,” he said.

Dr B.S. Shylaja, visiting scientist at the Jawaharlal Nehru Planetarium, Bengaluru, who had organised the workshop, said that their team had undertaken an extensive survey of Kannada inscriptions and identified hundreds of solar and lunar eclipses as well as astronomical phenomena like solstices, equinoxes and occultation of the moon with bright stars like Rohini.

She said, “Epigraphical inscription mentioning total solar eclipse clearly implies that in ancient times, people in that area witnessed the cosmic event. We can compare the predicted path of the totality with the place at which it was actually visible from the location of the epigraphy. The difference would indicate the perturbations in the motion of Earth.”

She further pointed out, “The survey we undertook covered only 10 percent of available epigraphy. Inscriptions in various Indian languages await extensive study from this perspective. Such a study worldwide would provide us with a better understanding of historical climate change and contribute to our understanding of the history of astronomy.” (India Science Wire)